tooling

declare variables

main

actions

new function

call a function

messaggi

file

di

clear space classic

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select all
invert selection
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select setup
select loop

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After the 1th row 2th row 3th row 4th row 5th row 6th row 7th row 8th row 9th row 10th row 11th row 12th row 13th row 14th row 15th row 16th row 17th row 18th row 19th row 20th row 21th row 22th row 23th row 24th row 25th row 26th row 27th row 28th row 29th row 30th row 31th row 32th row 33th row 34th row 35th row 36th row 37th row 38th row 39th row 40th row 41th row 42th row 43th row 44th row 45th row 46th row 47th row 48th row 49th row 50th row 51th row 52th row 53th row 54th row 55th row 56th row 57th row 58th row 59th row 60th row 61th row 62th row 63th row 64th row 65th row 66th row 67th row 68th row 69th row 70th row 71th row 72th row 73th row 74th row 75th row 76th row 77th row 78th row 79th row 80th row 81th row 82th row 83th row 84th row 85th row 86th row 87th row 88th row 89th row 90th row 91th row 92th row 93th row 94th row 95th row 96th row last row
move the selected rows.
copy the selected rows.
past from the clipboard.

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copy in the clipboard the selected rows.
erase the selected rows.

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components

actions

wait

switch off / switch on

modulate the voltage

drive servo motor

play a note

read from a sensor

detects the status of a button

reads the duration of an impulse

transform a variable

if that happens do this

repeat n times

new function

call a function

Add a note

Add a marker

generate a random number

milliseconds

reads from the serial port

write on the serial port

write on a display LCD

//programma: countdown //******* pin ******** //******* declare ******** const int pin_segmentA=1;//pin of _segmentA const int pin_segmentB=2;//pin of _segmentB const int pin_segmentC=3;//pin of _segmentC const int pin_segmentD=4;//pin of _segmentD const int pin_segmentE=5;//pin of _segmentE const int pin_segmentF=6;//pin of _segmentF const int pin_segmentG=7;//pin of _segmentG //********** setup ********** void setup(){ pinMode(pin_segmentA,OUTPUT); pinMode(pin_segmentB,OUTPUT); pinMode(pin_segmentC,OUTPUT); pinMode(pin_segmentD,OUTPUT); pinMode(pin_segmentE,OUTPUT); pinMode(pin_segmentF,OUTPUT); pinMode(pin_segmentG,OUTPUT); } //********** loop ********** void loop() { //****************number_9**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,HIGH); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_8**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,HIGH); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_7**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,LOW); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_6**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,HIGH); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_5**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,HIGH); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_4**************** digitalWrite(pin_segmentA,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,HIGH); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_3**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,HIGH); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_2**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,HIGH); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_1**************** digitalWrite(pin_segmentA,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,LOW); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,LOW); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi //****************number_0**************** digitalWrite(pin_segmentA,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentB,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentC,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentD,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentE,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentF,HIGH); // HIGH/LOW is the voltage 5V/0V) digitalWrite(pin_segmentG,LOW); // HIGH/LOW is the voltage 5V/0V) delay(1000);//attendi };//end loop //powered by "Arduinomio" (C) //www.mastrohora.it

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